/**
 * @license Highmaps JS v1.0.4 (2014-09-02)
 * Highmaps as a plugin for Highcharts 4.0.1 or Highstock 2.0.1
 *
 * (c) 2011-2014 Torstein Honsi
 *
 * License: www.highcharts.com/license
 */

/*global HighchartsAdapter*/
(function (Highcharts) {


var UNDEFINED,
	Axis = Highcharts.Axis,
	Chart = Highcharts.Chart,
	Color = Highcharts.Color,
	Point = Highcharts.Point,
	Pointer = Highcharts.Pointer,
	Legend = Highcharts.Legend,
	LegendSymbolMixin = Highcharts.LegendSymbolMixin,
	Renderer = Highcharts.Renderer,
	Series = Highcharts.Series,
	SVGRenderer = Highcharts.SVGRenderer,
	VMLRenderer = Highcharts.VMLRenderer,
	
	addEvent = Highcharts.addEvent,
	each = Highcharts.each,
	extend = Highcharts.extend,
	extendClass = Highcharts.extendClass,
	merge = Highcharts.merge,
	pick = Highcharts.pick,
	numberFormat = Highcharts.numberFormat,
	defaultOptions = Highcharts.getOptions(),
	seriesTypes = Highcharts.seriesTypes,
	defaultPlotOptions = defaultOptions.plotOptions,
	wrap = Highcharts.wrap,
	noop = function () {};

	/**
 * Override to use the extreme coordinates from the SVG shape, not the
 * data values
 */
wrap(Axis.prototype, 'getSeriesExtremes', function (proceed) {
	var isXAxis = this.isXAxis,
		dataMin,
		dataMax,
		xData = [],
		useMapGeometry;

	// Remove the xData array and cache it locally so that the proceed method doesn't use it
	if (isXAxis) {
		each(this.series, function (series, i) {
			if (series.useMapGeometry) {
				xData[i] = series.xData;
				series.xData = [];
			}
		});
	}

	// Call base to reach normal cartesian series (like mappoint)
	proceed.call(this);

	// Run extremes logic for map and mapline
	if (isXAxis) {
		dataMin = pick(this.dataMin, Number.MAX_VALUE);
		dataMax = pick(this.dataMax, Number.MIN_VALUE);
		each(this.series, function (series, i) {
			if (series.useMapGeometry) {
				dataMin = Math.min(dataMin, pick(series.minX, dataMin));
				dataMax = Math.max(dataMax, pick(series.maxX, dataMin));
				series.xData = xData[i]; // Reset xData array
				useMapGeometry = true;
			}
		});
		if (useMapGeometry) {
			this.dataMin = dataMin;
			this.dataMax = dataMax;
		}
	}
});

/**
 * Override axis translation to make sure the aspect ratio is always kept
 */
wrap(Axis.prototype, 'setAxisTranslation', function (proceed) {
	var chart = this.chart,
		mapRatio,
		plotRatio = chart.plotWidth / chart.plotHeight,
		adjustedAxisLength,
		xAxis = chart.xAxis[0],
		padAxis,
		fixTo,
		fixDiff;

	
	// Run the parent method
	proceed.call(this);
	
	// On Y axis, handle both
	if (chart.options.chart.preserveAspectRatio && this.coll === 'yAxis' && xAxis.transA !== UNDEFINED) {
		
		// Use the same translation for both axes
		this.transA = xAxis.transA = Math.min(this.transA, xAxis.transA);
		
		mapRatio = plotRatio / ((xAxis.max - xAxis.min) / (this.max - this.min));
		
		// What axis to pad to put the map in the middle
		padAxis = mapRatio < 1 ? this : xAxis;

		// Pad it
		adjustedAxisLength = (padAxis.max - padAxis.min) * padAxis.transA;
		padAxis.pixelPadding = padAxis.len - adjustedAxisLength;
		padAxis.minPixelPadding = padAxis.pixelPadding / 2;

		fixTo = padAxis.fixTo;
		if (fixTo) {
			fixDiff = fixTo[1] - padAxis.toValue(fixTo[0], true);
			fixDiff *= padAxis.transA;
			if (Math.abs(fixDiff) > padAxis.minPixelPadding || (padAxis.min === padAxis.dataMin && padAxis.max === padAxis.dataMax)) { // zooming out again, keep within restricted area
				fixDiff = 0;
			}
			padAxis.minPixelPadding -= fixDiff;
		}
	}
});

/**
 * Override Axis.render in order to delete the fixTo prop
 */
wrap(Axis.prototype, 'render', function (proceed) {
	proceed.call(this);
	this.fixTo = null;
});


/**
 * The ColorAxis object for inclusion in gradient legends
 */
var ColorAxis = Highcharts.ColorAxis = function () {
	this.isColorAxis = true;
	this.init.apply(this, arguments);
};
extend(ColorAxis.prototype, Axis.prototype);
extend(ColorAxis.prototype, {
	defaultColorAxisOptions: {
		lineWidth: 0,
		gridLineWidth: 1,
		tickPixelInterval: 72,
		startOnTick: true,
		endOnTick: true,
		offset: 0,
		marker: {
			animation: {
				duration: 50
			},
			color: 'gray',
			width: 0.01
		},
		labels: {
			overflow: 'justify'
		},
		minColor: '#EFEFFF',
		maxColor: '#003875',
		tickLength: 5
	},
	init: function (chart, userOptions) {
		var horiz = chart.options.legend.layout !== 'vertical',
			options;

		// Build the options
		options = merge(this.defaultColorAxisOptions, {
			side: horiz ? 2 : 1,
			reversed: !horiz
		}, userOptions, {
			isX: horiz,
			opposite: !horiz,
			showEmpty: false,
			title: null,
			isColor: true
		});

		Axis.prototype.init.call(this, chart, options);

		// Base init() pushes it to the xAxis array, now pop it again
		//chart[this.isXAxis ? 'xAxis' : 'yAxis'].pop();

		// Prepare data classes
		if (userOptions.dataClasses) {
			this.initDataClasses(userOptions);
		}
		this.initStops(userOptions);

		// Override original axis properties
		this.isXAxis = true;
		this.horiz = horiz;
		this.zoomEnabled = false;
	},

	/*
	 * Return an intermediate color between two colors, according to pos where 0
	 * is the from color and 1 is the to color
	 */
	tweenColors: function (from, to, pos) {
		// Check for has alpha, because rgba colors perform worse due to lack of
		// support in WebKit.
		var hasAlpha = (to.rgba[3] !== 1 || from.rgba[3] !== 1);
		return (hasAlpha ? 'rgba(' : 'rgb(') + 
			Math.round(to.rgba[0] + (from.rgba[0] - to.rgba[0]) * (1 - pos)) + ',' + 
			Math.round(to.rgba[1] + (from.rgba[1] - to.rgba[1]) * (1 - pos)) + ',' + 
			Math.round(to.rgba[2] + (from.rgba[2] - to.rgba[2]) * (1 - pos)) + 
			(hasAlpha ? (',' + (to.rgba[3] + (from.rgba[3] - to.rgba[3]) * (1 - pos))) : '') + ')';
	},

	initDataClasses: function (userOptions) {
		var axis = this,
			chart = this.chart,
			dataClasses,
			colorCounter = 0,
			options = this.options,
			len = userOptions.dataClasses.length;
		this.dataClasses = dataClasses = [];
		this.legendItems = [];

		each(userOptions.dataClasses, function (dataClass, i) {
			var colors;

			dataClass = merge(dataClass);
			dataClasses.push(dataClass);
			if (!dataClass.color) {
				if (options.dataClassColor === 'category') {
					colors = chart.options.colors;
					dataClass.color = colors[colorCounter++];
					// loop back to zero
					if (colorCounter === colors.length) {
						colorCounter = 0;
					}
				} else {
					dataClass.color = axis.tweenColors(
						Color(options.minColor), 
						Color(options.maxColor), 
						len < 2 ? 0.5 : i / (len - 1) // #3219
					);
				}
			}
		});
	},

	initStops: function (userOptions) {
		this.stops = userOptions.stops || [
			[0, this.options.minColor],
			[1, this.options.maxColor]
		];
		each(this.stops, function (stop) {
			stop.color = Color(stop[1]);
		});
	},

	/**
	 * Extend the setOptions method to process extreme colors and color
	 * stops.
	 */
	setOptions: function (userOptions) {
		Axis.prototype.setOptions.call(this, userOptions);

		this.options.crosshair = this.options.marker;
		this.coll = 'colorAxis';
	},

	setAxisSize: function () {
		var symbol = this.legendSymbol,
			chart = this.chart,
			x,
			y,
			width,
			height;

		if (symbol) {
			this.left = x = symbol.attr('x');
			this.top = y = symbol.attr('y');
			this.width = width = symbol.attr('width');
			this.height = height = symbol.attr('height');
			this.right = chart.chartWidth - x - width;
			this.bottom = chart.chartHeight - y - height;

			this.len = this.horiz ? width : height;
			this.pos = this.horiz ? x : y;
		}
	},

	/** 
	 * Translate from a value to a color
	 */
	toColor: function (value, point) {
		var pos,
			stops = this.stops,
			from,
			to,
			color,
			dataClasses = this.dataClasses,
			dataClass,
			i;

		if (dataClasses) {
			i = dataClasses.length;
			while (i--) {
				dataClass = dataClasses[i];
				from = dataClass.from;
				to = dataClass.to;
				if ((from === UNDEFINED || value >= from) && (to === UNDEFINED || value <= to)) {
					color = dataClass.color;
					if (point) {
						point.dataClass = i;
					}
					break;
				}	
			}

		} else {

			if (this.isLog) {
				value = this.val2lin(value);
			}
			pos = 1 - ((this.max - value) / ((this.max - this.min) || 1));
			i = stops.length;
			while (i--) {
				if (pos > stops[i][0]) {
					break;
				}
			}
			from = stops[i] || stops[i + 1];
			to = stops[i + 1] || from;

			// The position within the gradient
			pos = 1 - (to[0] - pos) / ((to[0] - from[0]) || 1);

			color = this.tweenColors(
				from.color, 
				to.color,
				pos
			);
		}
		return color;
	},

	getOffset: function () {
		var group = this.legendGroup,
			sideOffset = this.chart.axisOffset[this.side];
		
		if (group) {

			Axis.prototype.getOffset.call(this);
			
			if (!this.axisGroup.parentGroup) {

				// Move the axis elements inside the legend group
				this.axisGroup.add(group);
				this.gridGroup.add(group);
				this.labelGroup.add(group);

				this.added = true;
			}
			// Reset it to avoid color axis reserving space
			this.chart.axisOffset[this.side] = sideOffset;
		}
	},

	/**
	 * Create the color gradient
	 */
	setLegendColor: function () {
		var grad,
			horiz = this.horiz,
			options = this.options;

		grad = horiz ? [0, 0, 1, 0] : [0, 0, 0, 1]; 
		this.legendColor = {
			linearGradient: { x1: grad[0], y1: grad[1], x2: grad[2], y2: grad[3] },
			stops: options.stops || [
				[0, options.minColor],
				[1, options.maxColor]
			]
		};
	},

	/**
	 * The color axis appears inside the legend and has its own legend symbol
	 */
	drawLegendSymbol: function (legend, item) {
		var padding = legend.padding,
			legendOptions = legend.options,
			horiz = this.horiz,
			box,
			width = pick(legendOptions.symbolWidth, horiz ? 200 : 12),
			height = pick(legendOptions.symbolHeight, horiz ? 12 : 200),
			labelPadding = pick(legendOptions.labelPadding, horiz ? 16 : 30),
			itemDistance = pick(legendOptions.itemDistance, 10);

		this.setLegendColor();

		// Create the gradient
		item.legendSymbol = this.chart.renderer.rect(
			0,
			legend.baseline - 11,
			width,
			height
		).attr({
			zIndex: 1
		}).add(item.legendGroup);
		box = item.legendSymbol.getBBox();

		// Set how much space this legend item takes up
		this.legendItemWidth = width + padding + (horiz ? itemDistance : labelPadding);
		this.legendItemHeight = height + padding + (horiz ? labelPadding : 0);
	},
	/**
	 * Fool the legend
	 */
	setState: noop,
	visible: true,
	setVisible: noop,
	getSeriesExtremes: function () {
		var series;
		if (this.series.length) {
			series = this.series[0];
			this.dataMin = series.valueMin;
			this.dataMax = series.valueMax;
		}
	},
	drawCrosshair: function (e, point) {
		var newCross = !this.cross,
			plotX = point && point.plotX,
			plotY = point && point.plotY,
			crossPos,
			axisPos = this.pos,
			axisLen = this.len;
		
		if (point) {
			crossPos = this.toPixels(point.value);
			if (crossPos < axisPos) {
				crossPos = axisPos - 2;
			} else if (crossPos > axisPos + axisLen) {
				crossPos = axisPos + axisLen + 2;
			}
			
			point.plotX = crossPos;
			point.plotY = this.len - crossPos;
			Axis.prototype.drawCrosshair.call(this, e, point);
			point.plotX = plotX;
			point.plotY = plotY;
			
			if (!newCross && this.cross) {
				this.cross
					.attr({
						fill: this.crosshair.color
					})
					.add(this.labelGroup);
			}
		}
	},
	getPlotLinePath: function (a, b, c, d, pos) {
		if (pos) { // crosshairs only
			return this.horiz ? 
				['M', pos - 4, this.top - 6, 'L', pos + 4, this.top - 6, pos, this.top, 'Z'] : 
				['M', this.left, pos, 'L', this.left - 6, pos + 6, this.left - 6, pos - 6, 'Z'];
		} else {
			return Axis.prototype.getPlotLinePath.call(this, a, b, c, d);
		}
	},

	update: function (newOptions, redraw) {
		each(this.series, function (series) {
			series.isDirtyData = true; // Needed for Axis.update when choropleth colors change
		});
		Axis.prototype.update.call(this, newOptions, redraw);
		if (this.legendItem) {
			this.setLegendColor();
			this.chart.legend.colorizeItem(this, true);
		}
	},

	/**
	 * Get the legend item symbols for data classes
	 */
	getDataClassLegendSymbols: function () {
		var axis = this,
			chart = this.chart,
			legendItems = this.legendItems,
			legendOptions = chart.options.legend,
			valueDecimals = legendOptions.valueDecimals,
			valueSuffix = legendOptions.valueSuffix || '',
			name;

		if (!legendItems.length) {
			each(this.dataClasses, function (dataClass, i) {
				var vis = true,
					from = dataClass.from,
					to = dataClass.to;
				
				// Assemble the default name. This can be overridden by legend.options.labelFormatter
				name = '';
				if (from === UNDEFINED) {
					name = '< ';
				} else if (to === UNDEFINED) {
					name = '> ';
				}
				if (from !== UNDEFINED) {
					name += numberFormat(from, valueDecimals) + valueSuffix;
				}
				if (from !== UNDEFINED && to !== UNDEFINED) {
					name += ' - ';
				}
				if (to !== UNDEFINED) {
					name += numberFormat(to, valueDecimals) + valueSuffix;
				}
				
				// Add a mock object to the legend items
				legendItems.push(extend({
					chart: chart,
					name: name,
					options: {},
					drawLegendSymbol: LegendSymbolMixin.drawRectangle,
					visible: true,
					setState: noop,
					setVisible: function () {
						vis = this.visible = !vis;
						each(axis.series, function (series) {
							each(series.points, function (point) {
								if (point.dataClass === i) {
									point.setVisible(vis);
								}
							});
						});
						
						chart.legend.colorizeItem(this, vis);
					}
				}, dataClass));
			});
		}
		return legendItems;
	},
	name: '' // Prevents 'undefined' in legend in IE8
});

/**
 * Handle animation of the color attributes directly
 */
each(['fill', 'stroke'], function (prop) {
	HighchartsAdapter.addAnimSetter(prop, function (fx) {
		fx.elem.attr(prop, ColorAxis.prototype.tweenColors(Color(fx.start), Color(fx.end), fx.pos));
	});
});

/**
 * Extend the chart getAxes method to also get the color axis
 */
wrap(Chart.prototype, 'getAxes', function (proceed) {

	var options = this.options,
		colorAxisOptions = options.colorAxis;

	proceed.call(this);

	this.colorAxis = [];
	if (colorAxisOptions) {
		proceed = new ColorAxis(this, colorAxisOptions); // Fake assignment for jsLint
	}
});


/**
 * Wrap the legend getAllItems method to add the color axis. This also removes the 
 * axis' own series to prevent them from showing up individually.
 */
wrap(Legend.prototype, 'getAllItems', function (proceed) {
	var allItems = [],
		colorAxis = this.chart.colorAxis[0];

	if (colorAxis) {

		// Data classes
		if (colorAxis.options.dataClasses) {
			allItems = allItems.concat(colorAxis.getDataClassLegendSymbols());
		// Gradient legend
		} else {
			// Add this axis on top
			allItems.push(colorAxis);
		}

		// Don't add the color axis' series
		each(colorAxis.series, function (series) {
			series.options.showInLegend = false;
		});
	}

	return allItems.concat(proceed.call(this));
});/**
 * Mixin for maps and heatmaps
 */
var colorSeriesMixin = {

	pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
		stroke: 'borderColor',
		'stroke-width': 'borderWidth',
		fill: 'color',
		dashstyle: 'dashStyle'
	},
	pointArrayMap: ['value'],
	axisTypes: ['xAxis', 'yAxis', 'colorAxis'],
	optionalAxis: 'colorAxis',
	trackerGroups: ['group', 'markerGroup', 'dataLabelsGroup'],
	getSymbol: noop,
	parallelArrays: ['x', 'y', 'value'],
	colorKey: 'value',
	
	/**
	 * In choropleth maps, the color is a result of the value, so this needs translation too
	 */
	translateColors: function () {
		var series = this,
			nullColor = this.options.nullColor,
			colorAxis = this.colorAxis,
			colorKey = this.colorKey;

		each(this.data, function (point) {
			var value = point[colorKey],
				color;

			color = value === null ? nullColor : (colorAxis && value !== undefined) ? colorAxis.toColor(value, point) : point.color || series.color;

			if (color) {
				point.color = color;
			}
		});
	}
};


/**
 * Wrap the buildText method and add the hook for add text stroke
 */
wrap(SVGRenderer.prototype, 'buildText', function (proceed, wrapper) {

	var textStroke = wrapper.styles && wrapper.styles.HcTextStroke;

	proceed.call(this, wrapper);

	// Apply the text stroke
	if (textStroke && wrapper.applyTextStroke) {
		wrapper.applyTextStroke(textStroke);
	}
});

/**
 * Apply an outside text stroke to data labels, based on the custom CSS property, HcTextStroke.
 * Consider moving this to Highcharts core, also makes sense on stacked columns etc.
 */
SVGRenderer.prototype.Element.prototype.applyTextStroke = function (textStroke) {
	var elem = this.element,
		tspans,
		firstChild;
	
	textStroke = textStroke.split(' ');
	tspans = elem.getElementsByTagName('tspan');
	firstChild = elem.firstChild;
	
	// In order to get the right y position of the clones, 
	// copy over the y setter
	this.ySetter = this.xSetter;
	
	each([].slice.call(tspans), function (tspan, y) {
		var clone;
		if (y === 0) {
			tspan.setAttribute('x', elem.getAttribute('x'));
			if ((y = elem.getAttribute('y')) !== null) {
				tspan.setAttribute('y', y);
			}
		}
		clone = tspan.cloneNode(1);
		clone.setAttribute('stroke', textStroke[1]);
		clone.setAttribute('stroke-width', textStroke[0]);
		clone.setAttribute('stroke-linejoin', 'round');
		elem.insertBefore(clone, firstChild);
	});
};
// Add events to the Chart object itself
extend(Chart.prototype, {
	renderMapNavigation: function () {
		var chart = this,
			options = this.options.mapNavigation,
			buttons = options.buttons,
			n,
			button,
			buttonOptions,
			attr,
			states,
			outerHandler = function () { 
				this.handler.call(chart); 
			};

		if (pick(options.enableButtons, options.enabled) && !chart.renderer.forExport) {
			for (n in buttons) {
				if (buttons.hasOwnProperty(n)) {
					buttonOptions = merge(options.buttonOptions, buttons[n]);
					attr = buttonOptions.theme;
					states = attr.states;
					button = chart.renderer.button(
							buttonOptions.text, 
							0, 
							0, 
							outerHandler, 
							attr, 
							states && states.hover,
							states && states.select, 
							0, 
							n === 'zoomIn' ? 'topbutton' : 'bottombutton'
						)
						.attr({
							width: buttonOptions.width,
							height: buttonOptions.height,
							title: chart.options.lang[n],
							zIndex: 5
						})
						.css(buttonOptions.style)
						.add();
					button.handler = buttonOptions.onclick;
					button.align(extend(buttonOptions, { width: button.width, height: 2 * button.height }), null, buttonOptions.alignTo);
				}
			}
		}
	},

	/**
	 * Fit an inner box to an outer. If the inner box overflows left or right, align it to the sides of the
	 * outer. If it overflows both sides, fit it within the outer. This is a pattern that occurs more places
	 * in Highcharts, perhaps it should be elevated to a common utility function.
	 */
	fitToBox: function (inner, outer) {
		each([['x', 'width'], ['y', 'height']], function (dim) {
			var pos = dim[0],
				size = dim[1];

			if (inner[pos] + inner[size] > outer[pos] + outer[size]) { // right overflow
				if (inner[size] > outer[size]) { // the general size is greater, fit fully to outer
					inner[size] = outer[size];
					inner[pos] = outer[pos];
				} else { // align right
					inner[pos] = outer[pos] + outer[size] - inner[size];
				}
			}
			if (inner[size] > outer[size]) {
				inner[size] = outer[size];
			}
			if (inner[pos] < outer[pos]) {
				inner[pos] = outer[pos];
			}
		});
		

		return inner;
	},

	/**
	 * Zoom the map in or out by a certain amount. Less than 1 zooms in, greater than 1 zooms out.
	 */
	mapZoom: function (howMuch, centerXArg, centerYArg, mouseX, mouseY) {
		/*if (this.isMapZooming) {
			this.mapZoomQueue = arguments;
			return;
		}*/

		var chart = this,
			xAxis = chart.xAxis[0],
			xRange = xAxis.max - xAxis.min,
			centerX = pick(centerXArg, xAxis.min + xRange / 2),
			newXRange = xRange * howMuch,
			yAxis = chart.yAxis[0],
			yRange = yAxis.max - yAxis.min,
			centerY = pick(centerYArg, yAxis.min + yRange / 2),
			newYRange = yRange * howMuch,
			fixToX = mouseX ? ((mouseX - xAxis.pos) / xAxis.len) : 0.5,
			fixToY = mouseY ? ((mouseY - yAxis.pos) / yAxis.len) : 0.5,
			newXMin = centerX - newXRange * fixToX,
			newYMin = centerY - newYRange * fixToY,
			newExt = chart.fitToBox({
				x: newXMin,
				y: newYMin,
				width: newXRange,
				height: newYRange
			}, {
				x: xAxis.dataMin,
				y: yAxis.dataMin,
				width: xAxis.dataMax - xAxis.dataMin,
				height: yAxis.dataMax - yAxis.dataMin
			});

		// When mousewheel zooming, fix the point under the mouse
		if (mouseX) {
			xAxis.fixTo = [mouseX - xAxis.pos, centerXArg];
		}
		if (mouseY) {
			yAxis.fixTo = [mouseY - yAxis.pos, centerYArg];
		}

		// Zoom
		if (howMuch !== undefined) {
			xAxis.setExtremes(newExt.x, newExt.x + newExt.width, false);
			yAxis.setExtremes(newExt.y, newExt.y + newExt.height, false);

		// Reset zoom
		} else {
			xAxis.setExtremes(undefined, undefined, false);
			yAxis.setExtremes(undefined, undefined, false);
		}
		
		// Prevent zooming until this one is finished animating
		/*chart.holdMapZoom = true;
		setTimeout(function () {
			chart.holdMapZoom = false;
		}, 200);*/
		/*delay = animation ? animation.duration || 500 : 0;
		if (delay) {
			chart.isMapZooming = true;
			setTimeout(function () {
				chart.isMapZooming = false;
				if (chart.mapZoomQueue) {
					chart.mapZoom.apply(chart, chart.mapZoomQueue);
				}
				chart.mapZoomQueue = null;
			}, delay);
		}*/

		chart.redraw();
	}
});

/**
 * Extend the Chart.render method to add zooming and panning
 */
wrap(Chart.prototype, 'render', function (proceed) {
	var chart = this,
		mapNavigation = chart.options.mapNavigation;

	// Render the plus and minus buttons. Doing this before the shapes makes getBBox much quicker, at least in Chrome.
	chart.renderMapNavigation();

	proceed.call(chart);

	// Add the double click event
	if (pick(mapNavigation.enableDoubleClickZoom, mapNavigation.enabled) || mapNavigation.enableDoubleClickZoomTo) {
		addEvent(chart.container, 'dblclick', function (e) {
			chart.pointer.onContainerDblClick(e);
		});
	}

	// Add the mousewheel event
	if (pick(mapNavigation.enableMouseWheelZoom, mapNavigation.enabled)) {
		addEvent(chart.container, document.onmousewheel === undefined ? 'DOMMouseScroll' : 'mousewheel', function (e) {
			chart.pointer.onContainerMouseWheel(e);
			return false;
		});
	}
});

// Extend the Pointer
extend(Pointer.prototype, {

	/**
	 * The event handler for the doubleclick event
	 */
	onContainerDblClick: function (e) {
		var chart = this.chart;

		e = this.normalize(e);

		if (chart.options.mapNavigation.enableDoubleClickZoomTo) {
			if (chart.pointer.inClass(e.target, 'highcharts-tracker')) {
				chart.hoverPoint.zoomTo();
			}
		} else if (chart.isInsidePlot(e.chartX - chart.plotLeft, e.chartY - chart.plotTop)) {
			chart.mapZoom(
				0.5,
				chart.xAxis[0].toValue(e.chartX),
				chart.yAxis[0].toValue(e.chartY),
				e.chartX, 
				e.chartY
			);
		}
	},

	/**
	 * The event handler for the mouse scroll event
	 */
	onContainerMouseWheel: function (e) {
		var chart = this.chart,
			delta;

		e = this.normalize(e);

		// Firefox uses e.detail, WebKit and IE uses wheelDelta
		delta = e.detail || -(e.wheelDelta / 120);
		if (chart.isInsidePlot(e.chartX - chart.plotLeft, e.chartY - chart.plotTop)) {
			chart.mapZoom(
				//delta > 0 ? 2 : 0.5,
				Math.pow(2, delta),
				chart.xAxis[0].toValue(e.chartX),
				chart.yAxis[0].toValue(e.chartY),
				e.chartX,
				e.chartY
			);
		}
	}
});

// Implement the pinchType option
wrap(Pointer.prototype, 'init', function (proceed, chart, options) {

	proceed.call(this, chart, options);

	// Pinch status
	if (pick(options.mapNavigation.enableTouchZoom, options.mapNavigation.enabled)) {
		this.pinchX = this.pinchHor = this.pinchY = this.pinchVert = this.hasZoom = true;
	}
});

// Extend the pinchTranslate method to preserve fixed ratio when zooming
wrap(Pointer.prototype, 'pinchTranslate', function (proceed, pinchDown, touches, transform, selectionMarker, clip, lastValidTouch) {
	var xBigger;
	proceed.call(this, pinchDown, touches, transform, selectionMarker, clip, lastValidTouch);

	// Keep ratio
	if (this.chart.options.chart.type === 'map' && this.hasZoom) {
		xBigger = transform.scaleX > transform.scaleY;
		this.pinchTranslateDirection(
			!xBigger, 
			pinchDown, 
			touches, 
			transform, 
			selectionMarker, 
			clip, 
			lastValidTouch, 
			xBigger ? transform.scaleX : transform.scaleY
		);
	}
});



/**
 * Extend the default options with map options
 */
defaultPlotOptions.map = merge(defaultPlotOptions.scatter, {
	allAreas: true,

	animation: false, // makes the complex shapes slow
	nullColor: '#F8F8F8',
	borderColor: 'silver',
	borderWidth: 1,
	marker: null,
	stickyTracking: false,
	dataLabels: {
		formatter: function () { // #2945
			return this.point.value;
		},
		verticalAlign: 'middle',
		crop: false,
		overflow: false,
		padding: 0,
		style: {
			color: 'white',
			fontWeight: 'bold',
			HcTextStroke: '3px rgba(0,0,0,0.5)'
		}
	},
	turboThreshold: 0,
	tooltip: {
		followPointer: true,
		pointFormat: '{point.name}: {point.value}<br/>'
	},
	states: {
		normal: {
			animation: true
		},
		hover: {
			brightness: 0.2,
			halo: null
		}
	}
});

/**
 * The MapAreaPoint object
 */
var MapAreaPoint = extendClass(Point, {
	/**
	 * Extend the Point object to split paths
	 */
	applyOptions: function (options, x) {

		var point = Point.prototype.applyOptions.call(this, options, x),
			series = this.series,
			joinBy = series.joinBy,
			mapPoint;

		if (series.mapData) {
			mapPoint = point[joinBy[1]] !== undefined && series.mapMap[point[joinBy[1]]];
			if (mapPoint) {
				// This applies only to bubbles
				if (series.xyFromShape) {
					point.x = mapPoint._midX;
					point.y = mapPoint._midY;
				}
				extend(point, mapPoint); // copy over properties
			} else {
				point.value = point.value || null;
			}
		}
		
		return point;
	},

	/**
	 * Set the visibility of a single map area
	 */
	setVisible: function (vis) {
		var point = this,
			method = vis ? 'show' : 'hide';

		// Show and hide associated elements
		each(['graphic', 'dataLabel'], function (key) {
			if (point[key]) {
				point[key][method]();
			}
		});
	},

	/**
	 * Stop the fade-out 
	 */
	onMouseOver: function (e) {
		clearTimeout(this.colorInterval);
		if (this.value !== null) {
			Point.prototype.onMouseOver.call(this, e);
		}
	},
	/**
	 * Custom animation for tweening out the colors. Animation reduces blinking when hovering
	 * over islands and coast lines. We run a custom implementation of animation becuase we
	 * need to be able to run this independently from other animations like zoom redraw. Also,
	 * adding color animation to the adapters would introduce almost the same amount of code.
	 */
	onMouseOut: function () {
		var point = this,
			start = +new Date(),
			normalColor = Color(point.color),
			hoverColor = Color(point.pointAttr.hover.fill),
			animation = point.series.options.states.normal.animation,
			duration = animation && (animation.duration || 500),
			fill;

		if (duration && normalColor.rgba.length === 4 && hoverColor.rgba.length === 4 && point.state !== 'select') {
			fill = point.pointAttr[''].fill;
			delete point.pointAttr[''].fill; // avoid resetting it in Point.setState

			clearTimeout(point.colorInterval);
			point.colorInterval = setInterval(function () {
				var pos = (new Date() - start) / duration,
					graphic = point.graphic;
				if (pos > 1) {
					pos = 1;
				}
				if (graphic) {
					graphic.attr('fill', ColorAxis.prototype.tweenColors.call(0, hoverColor, normalColor, pos));
				}
				if (pos >= 1) {
					clearTimeout(point.colorInterval);
				}
			}, 13);
		}
		Point.prototype.onMouseOut.call(point);

		if (fill) {
			point.pointAttr[''].fill = fill;
		}
	},

	/**
	 * Zoom the chart to view a specific area point
	 */
	zoomTo: function () {
		var point = this,
			series = point.series;

		series.xAxis.setExtremes(
			point._minX,
			point._maxX,
			false
		);
		series.yAxis.setExtremes(
			point._minY,
			point._maxY,
			false
		);
		series.chart.redraw();
	}
});

/**
 * Add the series type
 */
seriesTypes.map = extendClass(seriesTypes.scatter, merge(colorSeriesMixin, {
	type: 'map',
	pointClass: MapAreaPoint,
	supportsDrilldown: true,
	getExtremesFromAll: true,
	useMapGeometry: true, // get axis extremes from paths, not values
	forceDL: true,
	/**
	 * Get the bounding box of all paths in the map combined.
	 */
	getBox: function (paths) {
		var MAX_VALUE = Number.MAX_VALUE,
			maxX = -MAX_VALUE, 
			minX =  MAX_VALUE, 
			maxY = -MAX_VALUE, 
			minY =  MAX_VALUE,
			minRange = MAX_VALUE,
			xAxis = this.xAxis,
			yAxis = this.yAxis,
			hasBox;
		
		// Find the bounding box
		each(paths || [], function (point) {

			if (point.path) {
				if (typeof point.path === 'string') {
					point.path = Highcharts.splitPath(point.path);
				}

				var path = point.path || [],
					i = path.length,
					even = false, // while loop reads from the end
					pointMaxX = -MAX_VALUE, 
					pointMinX =  MAX_VALUE, 
					pointMaxY = -MAX_VALUE, 
					pointMinY =  MAX_VALUE,
					properties = point.properties;

				// The first time a map point is used, analyze its box
				if (!point._foundBox) {
					while (i--) {
						if (typeof path[i] === 'number' && !isNaN(path[i])) {
							if (even) { // even = x
								pointMaxX = Math.max(pointMaxX, path[i]);
								pointMinX = Math.min(pointMinX, path[i]);
							} else { // odd = Y
								pointMaxY = Math.max(pointMaxY, path[i]);
								pointMinY = Math.min(pointMinY, path[i]);
							}
							even = !even;
						}
					}
					// Cache point bounding box for use to position data labels, bubbles etc
					point._midX = pointMinX + (pointMaxX - pointMinX) * 
						(point.middleX || (properties && properties['hc-middle-x']) || 0.5); // pick is slower and very marginally needed
					point._midY = pointMinY + (pointMaxY - pointMinY) * 
						(point.middleY || (properties && properties['hc-middle-y']) || 0.5);
					point._maxX = pointMaxX;
					point._minX = pointMinX;
					point._maxY = pointMaxY;
					point._minY = pointMinY;
					point.labelrank = pick(point.labelrank, (pointMaxX - pointMinX) * (pointMaxY - pointMinY));
					point._foundBox = true;
				}

				maxX = Math.max(maxX, point._maxX);
				minX = Math.min(minX, point._minX);
				maxY = Math.max(maxY, point._maxY);
				minY = Math.min(minY, point._minY);
				minRange = Math.min(point._maxX - point._minX, point._maxY - point._minY, minRange);
				hasBox = true;
			}
		});

		// Set the box for the whole series
		if (hasBox) {
			this.minY = Math.min(minY, pick(this.minY, MAX_VALUE));
			this.maxY = Math.max(maxY, pick(this.maxY, -MAX_VALUE));
			this.minX = Math.min(minX, pick(this.minX, MAX_VALUE));
			this.maxX = Math.max(maxX, pick(this.maxX, -MAX_VALUE));

			// If no minRange option is set, set the default minimum zooming range to 5 times the 
			// size of the smallest element
			if (xAxis && xAxis.options.minRange === undefined) {
				xAxis.minRange = Math.min(5 * minRange, (this.maxX - this.minX) / 5, xAxis.minRange || MAX_VALUE);
			}
			if (yAxis && yAxis.options.minRange === undefined) {
				yAxis.minRange = Math.min(5 * minRange, (this.maxY - this.minY) / 5, yAxis.minRange || MAX_VALUE);
			}
		}
	},
	
	getExtremes: function () {
		// Get the actual value extremes for colors
		Series.prototype.getExtremes.call(this, this.valueData);

		// Recalculate box on updated data
		if (this.chart.hasRendered && this.isDirtyData) {
			this.getBox(this.options.data);
		}

		this.valueMin = this.dataMin;
		this.valueMax = this.dataMax;

		// Extremes for the mock Y axis
		this.dataMin = this.minY;
		this.dataMax = this.maxY;
	},
	
	/**
	 * Translate the path so that it automatically fits into the plot area box
	 * @param {Object} path
	 */
	translatePath: function (path) {
		
		var series = this,
			even = false, // while loop reads from the end
			xAxis = series.xAxis,
			yAxis = series.yAxis,
			xMin = xAxis.min,
			xTransA = xAxis.transA,
			xMinPixelPadding = xAxis.minPixelPadding,
			yMin = yAxis.min,
			yTransA = yAxis.transA,
			yMinPixelPadding = yAxis.minPixelPadding,
			i,
			ret = []; // Preserve the original

		// Do the translation
		if (path) {
			i = path.length;
			while (i--) {
				if (typeof path[i] === 'number') {
					ret[i] = even ? 
						(path[i] - xMin) * xTransA + xMinPixelPadding :
						(path[i] - yMin) * yTransA + yMinPixelPadding;
					even = !even;
				} else {
					ret[i] = path[i];
				}
			}
		}

		return ret;
	},
	
	/**
	 * Extend setData to join in mapData. If the allAreas option is true, all areas 
	 * from the mapData are used, and those that don't correspond to a data value
	 * are given null values.
	 */
	setData: function (data, redraw) {
		var options = this.options,
			mapData = options.mapData,
			joinBy = options.joinBy,
			joinByNull = joinBy === null,
			dataUsed = [],
			mapPoint,
			props,
			i;

		if (joinByNull) {
			joinBy = '_i';
		}
		joinBy = this.joinBy = Highcharts.splat(joinBy);
		if (!joinBy[1]) {
			joinBy[1] = joinBy[0];
		}

		// Pick up numeric values, add index
		if (data) {
			each(data, function (val, i) {
				if (typeof val === 'number') {
					data[i] = {
						value: val
					};
				}
				if (joinByNull) {
					data[i]._i = i;
				}
			});
		}

		this.getBox(data);
		if (mapData) {
			if (mapData.type === 'FeatureCollection') {
				mapData = Highcharts.geojson(mapData, this.type, this);
			}

			this.getBox(mapData);
			this.mapData = mapData;
			this.mapMap = {};
			
			for (i = 0; i < mapData.length; i++) {
				mapPoint = mapData[i];
				props = mapPoint.properties;

				mapPoint._i = i;
				// Copy the property over to root for faster access
				if (joinBy[0] && props && props[joinBy[0]]) {
					mapPoint[joinBy[0]] = props[joinBy[0]];
				}
				this.mapMap[mapPoint[joinBy[0]]] = mapPoint;
			}

			if (options.allAreas) {

				data = data || [];

				// Registered the point codes that actually hold data
				if (joinBy[1]) {
					each(data, function (point) {
						dataUsed.push(point[joinBy[1]]);
					});
				}

				// Add those map points that don't correspond to data, which will be drawn as null points
				dataUsed = '|' + dataUsed.join('|') + '|'; // String search is faster than array.indexOf 

				each(mapData, function (mapPoint) {
					if (!joinBy[0] || dataUsed.indexOf('|' + mapPoint[joinBy[0]] + '|') === -1) {
						data.push(merge(mapPoint, { value: null }));
					}
				});
			}
		}
		Series.prototype.setData.call(this, data, redraw);
	},

	
	/**
	 * No graph for the map series
	 */
	drawGraph: noop,
	
	/**
	 * We need the points' bounding boxes in order to draw the data labels, so 
	 * we skip it now and call it from drawPoints instead.
	 */
	drawDataLabels: noop,

	/**
	 * Allow a quick redraw by just translating the area group. Used for zooming and panning
	 * in capable browsers.
	 */
	doFullTranslate: function () {
		return this.isDirtyData || this.chart.renderer.isVML || !this.baseTrans;
	},
	
	/**
	 * Add the path option for data points. Find the max value for color calculation.
	 */
	translate: function () {
		var series = this,
			xAxis = series.xAxis,
			yAxis = series.yAxis,
			doFullTranslate = series.doFullTranslate();

		series.generatePoints();
		
		each(series.data, function (point) {
		
			// Record the middle point (loosely based on centroid), determined
			// by the middleX and middleY options.
			point.plotX = xAxis.toPixels(point._midX, true);
			point.plotY = yAxis.toPixels(point._midY, true);

			if (doFullTranslate) {
		
				point.shapeType = 'path';
				point.shapeArgs = {
					//d: display ? series.translatePath(point.path) : ''
					d: series.translatePath(point.path),
					'vector-effect': 'non-scaling-stroke'
				};
			}
		});
		
		series.translateColors();
	},
	
	/** 
	 * Use the drawPoints method of column, that is able to handle simple shapeArgs.
	 * Extend it by assigning the tooltip position.
	 */
	drawPoints: function () {
		var series = this,
			xAxis = series.xAxis,
			yAxis = series.yAxis,
			group = series.group,
			chart = series.chart,
			renderer = chart.renderer,
			scaleX,
			scaleY,
			translateX,
			translateY,
			baseTrans = this.baseTrans;

		// Set a group that handles transform during zooming and panning in order to preserve clipping
		// on series.group
		if (!series.transformGroup) {
			series.transformGroup = renderer.g()
				.attr({
					scaleX: 1,
					scaleY: 1
				})
				.add(group);
		}
		
		// Draw the shapes again
		if (series.doFullTranslate()) {

			// Individual point actions	
			if (chart.hasRendered && series.pointAttrToOptions.fill === 'color') {
				each(series.points, function (point) {

					// Reset color on update/redraw
					if (point.graphic) {
						point.graphic.attr('fill', point.color);
					}

				});
			}

			// Draw them in transformGroup
			series.group = series.transformGroup;
			seriesTypes.column.prototype.drawPoints.apply(series);
			series.group = group; // Reset

			// Add class names
			each(series.points, function (point) {
				if (point.graphic) {
					if (point.name) {
						point.graphic.addClass('highcharts-name-' + point.name.replace(' ', '-').toLowerCase());
					}
					if (point.properties && point.properties['hc-key']) {
						point.graphic.addClass('highcharts-key-' + point.properties['hc-key'].toLowerCase());
					}
				}
			});

			// Set the base for later scale-zooming. The originX and originY properties are the 
			// axis values in the plot area's upper left corner.
			this.baseTrans = {
				originX: xAxis.min - xAxis.minPixelPadding / xAxis.transA,
				originY: yAxis.min - yAxis.minPixelPadding / yAxis.transA + (yAxis.reversed ? 0 : yAxis.len / yAxis.transA), 
				transAX: xAxis.transA,
				transAY: yAxis.transA
			};

		// Just update the scale and transform for better performance
		} else {
			scaleX = xAxis.transA / baseTrans.transAX;
			scaleY = yAxis.transA / baseTrans.transAY;
			if (scaleX > 0.99 && scaleX < 1.01 && scaleY > 0.99 && scaleY < 1.01) { // rounding errors
				translateX = 0;
				translateY = 0;
				scaleX = 1;
				scaleY = 1;

			} else {	
				translateX = xAxis.toPixels(baseTrans.originX, true);
				translateY = yAxis.toPixels(baseTrans.originY, true);
			} 

			this.transformGroup.animate({
				translateX: translateX,
				translateY: translateY,
				scaleX: scaleX,
				scaleY: scaleY
			});

		}

		this.drawMapDataLabels();
		
		
	},

	/**
	 * Draw the data labels. Special for maps is the time that the data labels are drawn (after points),
	 * and the clipping of the dataLabelsGroup.
	 */		
	drawMapDataLabels: function () {

		Series.prototype.drawDataLabels.call(this);
		if (this.dataLabelsGroup) {
			this.dataLabelsGroup.clip(this.chart.clipRect);
		}

		this.hideOverlappingDataLabels();
	},

	/**
	 * Hide overlapping labels. Labels are moved and faded in and out on zoom to provide a smooth 
	 * visual imression.
	 */		
	hideOverlappingDataLabels: function () {

		var points = this.points,
			len = points.length,
			i,
			j,
			label1,
			label2,
			intersectRect = function (pos1, pos2, size1, size2) {
				return !(
					pos2.x > pos1.x + size1.width ||
					pos2.x + size2.width < pos1.x ||
					pos2.y > pos1.y + size1.height ||
					pos2.y + size2.height < pos1.y
				);
			};

		// Mark with initial opacity
		each(points, function (point, label) {
			label = point.dataLabel;
			if (label) {
				label.oldOpacity = label.opacity;
				label.newOpacity = 1;
			}
		});

		// Detect overlapping labels
		for (i = 0; i < len - 1; ++i) {
			label1 = points[i].dataLabel;

			for (j = i + 1; j < len; ++j) {
				label2 = points[j].dataLabel;
				if (label1 && label2 && label1.newOpacity !== 0 && label2.newOpacity !== 0 && 
						intersectRect(label1.alignAttr, label2.alignAttr, label1, label2)) {
					(points[i].labelrank < points[j].labelrank ? label1 : label2).newOpacity = 0;
				}
			}
		}

		// Hide or show
		each(points, function (point, label) {
			label = point.dataLabel;
			if (label) {
				if (label.oldOpacity !== label.newOpacity) {
					label[label.isOld ? 'animate' : 'attr'](extend({ opacity: label.newOpacity }, label.alignAttr));
				}
				label.isOld = true;
			}
		});
	},

	/**
	 * Override render to throw in an async call in IE8. Otherwise it chokes on the US counties demo.
	 */
	render: function () {
		var series = this,
			render = Series.prototype.render;

		// Give IE8 some time to breathe.
		if (series.chart.renderer.isVML && series.data.length > 3000) {
			setTimeout(function () {
				render.call(series);
			});
		} else {
			render.call(series);
		}
	},

	/**
	 * The initial animation for the map series. By default, animation is disabled. 
	 * Animation of map shapes is not at all supported in VML browsers.
	 */
	animate: function (init) {
		var chart = this.chart,
			animation = this.options.animation,
			group = this.group,
			xAxis = this.xAxis,
			yAxis = this.yAxis,
			left = xAxis.pos,
			top = yAxis.pos;

		if (chart.renderer.isSVG) {

			if (animation === true) {
				animation = {
					duration: 1000
				};
			}

			// Initialize the animation
			if (init) {
			
				// Scale down the group and place it in the center
				group.attr({
					translateX: left + xAxis.len / 2,
					translateY: top + yAxis.len / 2,
					scaleX: 0.001, // #1499
					scaleY: 0.001
				});
			
			// Run the animation
			} else {
				group.animate({
					translateX: left,
					translateY: top,
					scaleX: 1,
					scaleY: 1
				}, animation);
			
				// Delete this function to allow it only once
				this.animate = null;
			}
		}
	},

	/**
	 * Animate in the new series from the clicked point in the old series.
	 * Depends on the drilldown.js module
	 */
	animateDrilldown: function (init) {
		var toBox = this.chart.plotBox,
			level = this.chart.drilldownLevels[this.chart.drilldownLevels.length - 1],
			fromBox = level.bBox,
			animationOptions = this.chart.options.drilldown.animation,
			scale;
			
		if (!init) {

			scale = Math.min(fromBox.width / toBox.width, fromBox.height / toBox.height);
			level.shapeArgs = {
				scaleX: scale,
				scaleY: scale,
				translateX: fromBox.x,
				translateY: fromBox.y
			};
			
			// TODO: Animate this.group instead
			each(this.points, function (point) {

				point.graphic
					.attr(level.shapeArgs)
					.animate({
						scaleX: 1,
						scaleY: 1,
						translateX: 0,
						translateY: 0
					}, animationOptions);

			});

			this.animate = null;
		}
		
	},

	drawLegendSymbol: LegendSymbolMixin.drawRectangle,

	/**
	 * When drilling up, pull out the individual point graphics from the lower series
	 * and animate them into the origin point in the upper series.
	 */
	animateDrillupFrom: function (level) {
		seriesTypes.column.prototype.animateDrillupFrom.call(this, level);
	},


	/**
	 * When drilling up, keep the upper series invisible until the lower series has
	 * moved into place
	 */
	animateDrillupTo: function (init) {
		seriesTypes.column.prototype.animateDrillupTo.call(this, init);
	}
}));


// The mapline series type
defaultPlotOptions.mapline = merge(defaultPlotOptions.map, {
	lineWidth: 1,
	fillColor: 'none'
});
seriesTypes.mapline = extendClass(seriesTypes.map, {
	type: 'mapline',
	pointAttrToOptions: { // mapping between SVG attributes and the corresponding options
		stroke: 'color',
		'stroke-width': 'lineWidth',
		fill: 'fillColor',
		dashstyle: 'dashStyle'
	},
	drawLegendSymbol: seriesTypes.line.prototype.drawLegendSymbol
});

// The mappoint series type
defaultPlotOptions.mappoint = merge(defaultPlotOptions.scatter, {
	dataLabels: {
		enabled: true,
		formatter: function () { // #2945
			return this.point.name; 
		},
		color: 'black',
		crop: false,
		defer: false,
		overflow: false,
		style: {
			HcTextStroke: '3px rgba(255,255,255,0.5)'
		}
	}
});
seriesTypes.mappoint = extendClass(seriesTypes.scatter, {
	type: 'mappoint',
	forceDL: true
});

// The mapbubble series type
if (seriesTypes.bubble) {

	defaultPlotOptions.mapbubble = merge(defaultPlotOptions.bubble, {
		animationLimit: 500,
		tooltip: {
			pointFormat: '{point.name}: {point.z}'
		}
	});
	seriesTypes.mapbubble = extendClass(seriesTypes.bubble, {
		pointClass: extendClass(Point, {
			applyOptions: MapAreaPoint.prototype.applyOptions
		}),
		xyFromShape: true,
		type: 'mapbubble',
		pointArrayMap: ['z'], // If one single value is passed, it is interpreted as z
		/**
		 * Return the map area identified by the dataJoinBy option
		 */
		getMapData: seriesTypes.map.prototype.getMapData,
		getBox: seriesTypes.map.prototype.getBox,
		setData: seriesTypes.map.prototype.setData
	});
}

/**
 * Extend the default options with map options
 */
defaultOptions.plotOptions.heatmap = merge(defaultOptions.plotOptions.scatter, {
	animation: false,
	borderWidth: 0,
	nullColor: '#F8F8F8',
	dataLabels: {
		formatter: function () { // #2945
			return this.point.value;
		},
		verticalAlign: 'middle',
		crop: false,
		overflow: false,
		style: {
			color: 'white',
			fontWeight: 'bold',
			HcTextStroke: '1px rgba(0,0,0,0.5)'
		}
	},
	marker: null,
	tooltip: {
		pointFormat: '{point.x}, {point.y}: {point.value}<br/>'
	},
	states: {
		normal: {
			animation: true
		},
		hover: {
			brightness: 0.2
		}
	}
});

// The Heatmap series type
seriesTypes.heatmap = extendClass(seriesTypes.scatter, merge(colorSeriesMixin, {
	type: 'heatmap',
	pointArrayMap: ['y', 'value'],
	hasPointSpecificOptions: true,
	supportsDrilldown: true,
	getExtremesFromAll: true,
	init: function () {
		seriesTypes.scatter.prototype.init.apply(this, arguments);
		this.pointRange = this.options.colsize || 1;
		this.yAxis.axisPointRange = this.options.rowsize || 1; // general point range
	},
	translate: function () {
		var series = this,
			options = series.options,
			xAxis = series.xAxis,
			yAxis = series.yAxis;

		series.generatePoints();

		each(series.points, function (point) {
			var xPad = (options.colsize || 1) / 2,
				yPad = (options.rowsize || 1) / 2,
				x1 = Math.round(xAxis.len - xAxis.translate(point.x - xPad, 0, 1, 0, 1)),
				x2 = Math.round(xAxis.len - xAxis.translate(point.x + xPad, 0, 1, 0, 1)),
				y1 = Math.round(yAxis.translate(point.y - yPad, 0, 1, 0, 1)),
				y2 = Math.round(yAxis.translate(point.y + yPad, 0, 1, 0, 1));

			// Set plotX and plotY for use in K-D-Tree and more
			point.plotX = (x1 + x2) / 2;
			point.plotY = (y1 + y2) / 2;

			point.shapeType = 'rect';
			point.shapeArgs = {
				x: Math.min(x1, x2),
				y: Math.min(y1, y2),
				width: Math.abs(x2 - x1),
				height: Math.abs(y2 - y1)
			};
		});
		
		series.translateColors();

		// Make sure colors are updated on colorAxis update (#2893)
		if (this.chart.hasRendered) {
			each(series.points, function (point) {
				point.shapeArgs.fill = point.options.color || point.color; // #3311
			});
		}
	},
	drawPoints: seriesTypes.column.prototype.drawPoints,
	animate: noop,
	getBox: noop,
	drawLegendSymbol: LegendSymbolMixin.drawRectangle,

	getExtremes: function () {
		// Get the extremes from the value data
		Series.prototype.getExtremes.call(this, this.valueData);
		this.valueMin = this.dataMin;
		this.valueMax = this.dataMax;

		// Get the extremes from the y data
		Series.prototype.getExtremes.call(this);
	}
		
}));


/**
 * Convert a geojson object to map data of a given Highcharts type (map, mappoint or mapline).
 */
Highcharts.geojson = function (geojson, hType, series) {
	var mapData = [],
		path = [],
		polygonToPath = function (polygon) {
			var i = 0,
				len = polygon.length;
			path.push('M');
			for (; i < len; i++) {
				if (i === 1) {
					path.push('L');
				}
				path.push(polygon[i][0], -polygon[i][1]);
			}
		};

	hType = hType || 'map';
	
	each(geojson.features, function (feature) {

		var geometry = feature.geometry,
			type = geometry.type,
			coordinates = geometry.coordinates,
			properties = feature.properties,
			point;
		
		path = [];

		if (hType === 'map' || hType === 'mapbubble') {
			if (type === 'Polygon') {
				each(coordinates, polygonToPath);
				path.push('Z');

			} else if (type === 'MultiPolygon') {
				each(coordinates, function (items) {
					each(items, polygonToPath);
				});
				path.push('Z');
			}

			if (path.length) {
				point = { path: path };
			}
		
		} else if (hType === 'mapline') {
			if (type === 'LineString') {
				polygonToPath(coordinates);
			} else if (type === 'MultiLineString') {
				each(coordinates, polygonToPath);
			}

			if (path.length) {
				point = { path: path };
			}
		
		} else if (hType === 'mappoint') {
			if (type === 'Point') {
				point = {
					x: coordinates[0],
					y: -coordinates[1]
				};
			}
		}
		if (point) {
			mapData.push(extend(point, {
				name: properties.name || properties.NAME, 
				properties: properties
			}));
		}
		
	});

	// Create a credits text that includes map source, to be picked up in Chart.showCredits
	if (series) {
		series.chart.mapCredits = '<a href="http://www.highcharts.com">Highcharts</a> \u00A9 ' +
			'<a href="' + geojson.copyrightUrl + '">' + geojson.copyrightShort + '</a>';
	}

	return mapData;
};

/**
 * Override showCredits to include map source by default
 */
wrap(Chart.prototype, 'showCredits', function (proceed, credits) {

	if (defaultOptions.credits.text === this.options.credits.text && this.mapCredits) { // default text and mapCredits is set
		credits.text = this.mapCredits;
		credits.href = null;
	}

	proceed.call(this, credits);
});

// Add language
extend(defaultOptions.lang, {
	zoomIn: 'Zoom in',
	zoomOut: 'Zoom out'
});


// Set the default map navigation options
defaultOptions.mapNavigation = {
	buttonOptions: {
		alignTo: 'plotBox',
		align: 'left',
		verticalAlign: 'top',
		x: 0,
		width: 18,
		height: 18,
		style: {
			fontSize: '15px',
			fontWeight: 'bold',
			textAlign: 'center'
		},
		theme: {
			'stroke-width': 1
		}
	},
	buttons: {
		zoomIn: {
			onclick: function () {
				this.mapZoom(0.5);
			},
			text: '+',
			y: 0
		},
		zoomOut: {
			onclick: function () {
				this.mapZoom(2);
			},
			text: '-',
			y: 28
		}
	}
	// enabled: false,
	// enableButtons: null, // inherit from enabled
	// enableTouchZoom: null, // inherit from enabled
	// enableDoubleClickZoom: null, // inherit from enabled
	// enableDoubleClickZoomTo: false
	// enableMouseWheelZoom: null, // inherit from enabled
};

/**
 * Utility for reading SVG paths directly.
 */
Highcharts.splitPath = function (path) {
	var i;

	// Move letters apart
	path = path.replace(/([A-Za-z])/g, ' $1 ');
	// Trim
	path = path.replace(/^\s*/, "").replace(/\s*$/, "");
	
	// Split on spaces and commas
	path = path.split(/[ ,]+/);
	
	// Parse numbers
	for (i = 0; i < path.length; i++) {
		if (!/[a-zA-Z]/.test(path[i])) {
			path[i] = parseFloat(path[i]);
		}
	}
	return path;
};

// A placeholder for map definitions
Highcharts.maps = {};





// Create symbols for the zoom buttons
function selectiveRoundedRect(attr, x, y, w, h, rTopLeft, rTopRight, rBottomRight, rBottomLeft) {
	var normalize = (attr['stroke-width'] % 2 / 2);
		
	x -= normalize;
	y -= normalize;

	return ['M', x + rTopLeft, y,
        // top side
        'L', x + w - rTopRight, y,
        // top right corner
        'C', x + w - rTopRight / 2, y, x + w, y + rTopRight / 2, x + w, y + rTopRight,
        // right side
        'L', x + w, y + h - rBottomRight,
        // bottom right corner
        'C', x + w, y + h - rBottomRight / 2, x + w - rBottomRight / 2, y + h, x + w - rBottomRight, y + h,
        // bottom side
        'L', x + rBottomLeft, y + h,
        // bottom left corner
        'C', x + rBottomLeft / 2, y + h, x, y + h - rBottomLeft / 2, x, y + h - rBottomLeft,
        // left side
        'L', x, y + rTopLeft,
        // top left corner
        'C', x, y + rTopLeft / 2, x + rTopLeft / 2, y, x + rTopLeft, y,
        'Z'
    ];
}
SVGRenderer.prototype.symbols.topbutton = function (x, y, w, h, attr) {
	return selectiveRoundedRect(attr, x, y, w, h, attr.r, attr.r, 0, 0);
};
SVGRenderer.prototype.symbols.bottombutton = function (x, y, w, h, attr) {
	return selectiveRoundedRect(attr, x, y, w, h, 0, 0, attr.r, attr.r);
};
// The symbol callbacks are generated on the SVGRenderer object in all browsers. Even
// VML browsers need this in order to generate shapes in export. Now share
// them with the VMLRenderer.
if (Renderer === VMLRenderer) {
	each(['topbutton', 'bottombutton'], function (shape) {
		VMLRenderer.prototype.symbols[shape] = SVGRenderer.prototype.symbols[shape];
	});
}


/**
 * A wrapper for Chart with all the default values for a Map
 */
Highcharts.Map = function (options, callback) {
	
	var hiddenAxis = {
			endOnTick: false,
			gridLineWidth: 0,
			lineWidth: 0,
			minPadding: 0,
			maxPadding: 0,
			startOnTick: false,
			title: null,
			tickPositions: []
		},
		seriesOptions;

	/* For visual testing
	hiddenAxis.gridLineWidth = 1;
	hiddenAxis.gridZIndex = 10;
	hiddenAxis.tickPositions = undefined;
	// */
	
	// Don't merge the data
	seriesOptions = options.series;
	options.series = null;
	
	options = merge({
		chart: {
			panning: 'xy',
			type: 'map'
		},
		xAxis: hiddenAxis,
		yAxis: merge(hiddenAxis, { reversed: true })	
	},
	options, // user's options

	{ // forced options
		chart: {
			inverted: false,
			alignTicks: false,
			preserveAspectRatio: true
		}
	});

	options.series = seriesOptions;


	return new Chart(options, callback);
};

}(Highcharts));
